FI95490B - Seal construction for the suction box of a suction roll in a paper machine and method in the sealing operation of a suction roll - Google Patents

Abstract

The invention relates to a seal construction for a suction box of a suction roll in a paper machine. The seal construction comprises a holder 11 in the shape of an open U facing the inner surface 3 of the roll shell, a seal 12, which is mounted in the holder and which lies in the axial direction of the roll and which can be moved towards and away from the inner surface 3 of the roll shell, and loading elements 25, by means of which the seal 12 can be moved in the holder 11 towards the inner surface 3 of the roll shell. In the invention the seal 12 is mounted so that in the holder 11 it essentially leans in relation to the essentially axially aligned shaft of the roll or corresponding direction 15, 16. In addition the second loading element 26 is mounted in the holder 11, with which the seal 12 can be inclined in relation to the said direction 15, 16 or the equivalent, when the effect of the first loading elements 25 is removed, in order to lock the seal 12 in place in the required position. The invention also relates to a method in the sealing operation of a suction roll. <IMAGE>

Description

95490

Paper machine suction roll suction box sealing structure and method in suction roll seal use Tätningskonstruktion för suglädan av en sugvals i en pappersmaskin och förfarande vid tätningsdriften av en sugvals 5

The invention relates to a sealing structure for a suction box of a suction roll of a paper machine, comprising a U-shaped holder open towards the inner surface of the roll shell, an axially oriented roll 10 mounted on and away from the inner surface of the roll shell and loading means for displacing the seal in the holder against the roll shell.

The invention also relates to a method in the use of a suction roll seal, in which a vacuum is created in the vacuum space of the suction box 15 of the suction roll and during the formation of the vacuum the vacuum space edge seals are pressed against the inner surface of the roll shell by means of loading means in the seal holder.

In the suction rollers of paper machines, the wear of seals has been a rather significant problem. The problem has been exacerbated in particular by the general tendency to achieve longer service intervals. The suction roll seals suitably divide the interior of the roll shell into vacuum chambers, where the vacuum is applied to the paper web on the outer surface of the roll shell through holes formed in the roll shell so that the web remains as desired and at the desired distance on the roll shell surface. The seals are loaded on the inner surface of the roll shell. In the pursuit of an efficient and tight suction roll in previous solutions, the seals of the suction roll were pressed against the inner surface of the roll roll by means of compressed air, for example. The compressive force was maintained continuously, resulting in fairly rapid wear of the seals. In order to eliminate this wear problem, the applicant's earlier Finnish patent application 30 No. 934909 did not continuously load the seals against the inner surface of the suction roll roll shell, but provided locking means so that the seal was initially pressed against the inner surface of the roll its holder. In this case, the load with which the seals were pressed against the inner surface of the roll shell could be removed. The wear of the seals was made substantially lower than before and often even the water lubrication of the seals could be removed. However, there was a rather fundamental problem with this prior solution of the applicant, 5 that the manufacturing tolerances of the sealing structure were very small in order to achieve the desired sealing effect. Due to these small tolerances, it could result in the seal sticking in place, resulting in the desired sealing effect not being achieved.

It is an object of the present invention to provide a new and improved suction roll sealing structure for a paper machine and a method for using a suction roll sealing, which avoids previous problems related to the prior art and also to the applicant's previous Finnish patent application No. 934909. In order to achieve the objects of the invention, the suction roll sealing structure according to the invention is mainly characterized in that the seal is mounted on the holder substantially tiltable with respect to the axial axis of the roll or a corresponding joint and that second loading means are mounted on the holder. the effect of the loading means is removed, to lock the seal in place in the desired position.

20

The method according to the invention in suction roller sealing, on the other hand, is mainly characterized in that when the desired vacuum has developed in the vacuum state, the loading effect through.

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The invention achieves significant advantages over previously known solutions, and in connection with these advantages, e.g. following. First, in the solution according to the invention, the seal is not constantly loaded against the inner surface of the roll shell of the suction roll, as a result of which the wear of the seal is substantially low.

I il (, t iil «! Li t *» · ·: 3 95490 Although this low wear was achieved by the previously mentioned solution according to FI application 934909, the invention has the significant advantage over the solution according to this patent application that the seal does not even under unfavorable operating conditions, it becomes stuck, whereby the sealing structure is very reliable 5 and, as a result, the service intervals are even longer than before.The other advantages and features of the invention will become apparent from the following detailed description of the invention.

Next, the invention will be explained by way of example with reference to Figures 10 of the accompanying drawing.

Figure 1 shows a completely schematic representation of a suction roll of a paper machine using a sealing structure according to the invention.

Fig. 2 is a more detailed sectional view of the suction roll seal structure with the seal loaded against the inner surface of the roll shell when the lock is released.

Fig. 3 is a view similar to Fig. 2 of the seal structure in a situation where the seal is locked in place and the load against the inner surface of the roll shell has been removed.

20

Figure 1 shows a conventional suction roll drive of a paper machine to which the sealing structure and method according to the invention are applicable. The paper web W is guided from the nip Nj between the suction roll 1 and the counter roll 5 to the surface of the roll shell 2 of the suction roll 1 and along the surface of the roll shell 2 to the nip N2 and 25 between the suction roll 1 and the second counter roll 6 for further processing. Inside the suction roll 1 there is a suction box 4 in which the sealing structures 10 are traced, the seals of which form the vacuum chambers S1 and S2 between them.

According to Fig. 1, the seals rest against the inner surface 3 of the roll shell 2. By means of the negative pressures prevailing in the vacuum chambers S1? S2, the web W is held against the outer surface of the roll shell 2 and / or water is sucked from the web W into the vacuum chambers S1, S2. 30 There is nothing new in that arrangement per se, but as such is in accordance with the prior art 4 95490. The novelty, on the other hand, relates to the sealing structures 10 shown in Figure 1, which are described in more detail in Figures 2 and 3 of the drawing.

In Figures 2 and 3, the seal structure according to the invention is indicated generally by reference numeral 10. The seal structure 10 comprises a seal 12 mounted on a U-shaped holder 11 open towards the inner surface 3 of the roll shell. The U-shaped holder 11 is substantially larger in size than the seal 12. so that the seal 12 can easily move in the holder 11 towards and away from the inner surface 3 of the roll shell. The front wall 14 of the holder has an axial groove 15 10 formed in the upper part of the front wall, i.e. close to the inner surface 3 of the roll shell. A support plate 13 is correspondingly arranged inside the holder 11 and is provided with a curved projection 16 projecting into the groove 15 of the front wall 14. a joint on which the support plate 13 can turn. A first load hose 25 is mounted on the bottom 17 of the holder 11, which acts on the lower surface 21 of the seal 12 so that said first load hose 25 allows the seal 12 to be driven onto the inner surface 3 of the roll shell. that the front edge 23 and the rear edge 24 of the seal are attached to said inner surface 3 of the roll shell. The seal 12 can thus move inside the holder 11 radially towards and away from the roll shell so that the front surface 20 20 slides along the support surface 19 of the support plate. a load hose 26 which acts on the rear surface 22 of the seal and by means of which the seal 12 is locked in place in the desired position. This is shown in more detail in Fig. 3, where it can be seen that in the locking position the pressure is released from the first load hose 25 and the pressure is connected to the second load hose 26 so that the seal 25 12 and the support plate 13 pivot about the joint 15,16 abuts against the front wall 14 of the holder 11.

Thus, in the situation shown in Figure 3, where the seal 12 is locked in place, the pressure is released from the first load hose 25 and the seal 12 is pivoted about the joint 30,16 by loading the second load hose 26 so that a gap is created between the rear edge 24 and the roll shell inner surface 3. Gj. The dimensioning of the structure of the seal 12 and the holder is such that during the rotation of the seal 12 the leading edge 23 of the seal is also detached from the inner surface 3 of the roll shell, whereby a clearance is created between the leading edge 23 of the seal and the inner surface 3 of the roll shell. G. Thus, during the use of the roll, the seal does not rest against the inner surface 3 of the roll shell, thus avoiding the problem of wear of the seal.

5 The size of the clearance G is of the order of 0.05 mm, in which case this clearance does not adversely affect the vacuum prevailing in the vacuum chambers S1 and S2 of the suction roll.

Briefly described, the operation of the sealing structure according to the invention is as follows. When the seal is inoperative, neither of the load hoses 25,26 10 is pressurized, whereby the seal 12 rests on the bottom 17 of the holder 11. When the seal 12 is actuated, pressure is applied to the first load hose 25, which first load hose 25 moves the seal 12 to the inner surface 3 of the seal. 20 sliding along the support surface 19 of the support plate 13. The vacuum in the suction box 4 holds the seal 12 on the inner surface 3 of the roll shell and the seals (Fig. 15 1) define vacuum chambers Sj 1 between which a vacuum of the desired magnitude is formed. The pressure is then disconnected from the first load hose 25, whereby the seal 12 remains attached to the inner surface 3 of the roll shell under the effect of the vacuum of the vacuum chamber S1? S2. The seal 12 is locked in place by connecting compressed air to a second load hose 26 which, as shown in Figure 3, rotates the seal around the joint formed by the projections 16 of the grooves 15 and 20. When the lower edge 27 of the support plate 13 hits the front wall 14 of the holder, the seal 12 is locked in place. In this case, the pressure is maintained at all times in the second load hose 26. When the seal 12 is inclined according to Fig. 3, a gap Gj is formed between the rear edge 24 of the seal and the inner surface 3 of the roll shell. Due to the dimensions of the sealing structure and in particular the lever ratios, a clearance G is also formed between the leading edge 23 of the seal 25 and the inner surface 3 of the roll shell 3 so that the seal 12 is at a suitable distance from the inner surface 3 of the roll shell 3. The seal 12 is thus not in contact with the roll shell.

The invention has been described above by way of example with reference to the figures of the accompanying drawing. However, the invention is not limited to the 6,954,90 examples shown in the figures, but the various embodiments of the invention may vary within the scope of the inventive idea defined in the appended claims.

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Claims (10)

A sealing structure for a suction roll of a paper machine suction roll, comprising an open U-shaped holder (11) facing the inner surface (3) of the roll shell, an axially oriented roll (12) and load means (25) movable towards and away from the roll 5 mounted on the holder. with the seal (12) being displaceable in the holder (11) against the inner surface (3) of the roll shell, characterized in that the seal (12) is mounted on the holder (11) substantially tiltable with respect to the axial axis of the roll or a corresponding joint (15,16) and 11) second loading means 10 (26) are mounted, by means of which the seal (12) can be tilted relative to said joint (15, 16) or the like when the effect of the first loading means (25) is removed, to lock the seal (12) in place. Sealing structure according to claim 1, characterized in that a support plate (13) supporting the seal (12) is articulated to the holder 15 (11), along which the seal (12) is adapted to slide said seal by means of first loading means (25) against the inner surface of the roll shell. (3) and whose joint (15, 16) between the support plate (13) and the holder (11) acts as a tilt joint of the seal (12). Sealing structure according to Claim 2, characterized in that the support plate (13) is articulated to the front wall (14) of the U-shaped holder (11). Sealing structure according to Claim 2 or 3, characterized in that the support plate (13) is articulated in the region of the free end 25 of the front wall (14) of the U-shaped holder (11). Sealing structure according to one of the preceding claims, characterized in that the seal (12) is adapted to lock in place so that when the support plate (13) and the seal (11) are tilted by the second loading means (26) the support plate (13) hits the holder 30 (11). a front wall (14) to which it is pressed by said second loading means (26). 8 95490 Sealing structure according to one of the preceding claims, characterized in that a clearance (G) remains between the seal (12) and the inner surface (3) of the roll shell in the locking position. Sealing structure according to one of the preceding claims, characterized in that the first loading means (25) are mounted on the bottom (17) of the holder (11) and that the second loading means (26) are mounted on the rear wall (18) of the holder (11). 7 95490 Sealing structure according to one of the preceding claims, characterized in that the first and second loading means comprise load hoses (25, 26) which can be pressurized with a pressure medium. A method for using a suction roll seal, wherein a vacuum is created in the vacuum space (S1, S2) of the suction box (4) of the suction roll (1) and during the formation of the vacuum the edge seals (12) of the vacuum space (S1, S2) are pressed against the load means in the seal holder (11). (25) against the inner surface (3) of the roll shell (2), characterized in that when the desired vacuum has developed in the vacuum space (S1, S2), the loading means (25) pressing against the seal (12) against the inner surface (3) of the roll shell are terminated and the seal (12) is held on the inner surface (3) of the roll shell by a vacuum in the vacuum state (S), after which the seal (12) is locked in place in the desired position by tilting the seal (12) in the holder (11) by means of second loading means (26). ('<<<<' A method according to claim 9, characterized in that the seal (12) is tilted in the holder (11) so that a clearance (G) is left between the seal (11) and the inner surface (3) of the roll shell. ti · 9 95490